CN1206074A

CN1206074A - Wear-resisting anticorrosive efficient pump

Info

Publication number: CN1206074A
Application number: CN 97105267
Authority: CN
Inventors: 张立新; 李晓东; 李京; 赵一省; 高英; 周钟泉; 柯伟
Original assignee: METAL CORROSION AND PROTECTION
Current assignee: METAL CORROSION AND PROTECTION
Priority date: 1997-07-18
Filing date: 1997-07-18
Publication date: 1999-01-27
Anticipated expiration: 2017-07-18
Also published as: CN1078316C

Abstract

The pump features its molten bound epoxy paint layer on the inner surface. The main components of the paint include: E-12 epoxy resin 25-40 wt%, curing agent 0.1-2 wt%, coupling agent 0.1-0.5 wt% other than stuffing. The curing agent is dicyandiamide or one of its derivatives, benzenetetracarboxylic acid anhydride, benzene tricarboxylic acid anhydride and acrylic resin; the coupling agent is one of vinyl triethoxysilicane, isopropyltriiso stearamide lead titanate and tri(dicapryl pyro acyloxy) isopropyl titanate; and the stuffing is one or several of titanium white powder, cornundum powder, wollastonite powder and ore black powder. The pump has high wear resistance and corrosion resistance and thus long service life and high efficiency.

Description

A kind of wear-resisting anticorrosive efficient pump

The present invention relates to the transmission of liquid medium, a kind of wear-resisting anticorrosive efficient water pump is provided especially.

Water pump is of a great variety, and applied environment is extensive, industry and civilian in play an important role.Substantially adopt two types material at present on water pump is made, a kind of is nonmetallic material such as glass fibre reinforced plastics etc.; Another kind is metallic material such as cast iron, stainless steel, titanium etc.It is more that the general majority of nonmetallic material pump is used for chemical medium, and be limited to the low-flow high-lift working environment; Metallic material pump application area is very extensive, but also exists many use shortcomings, as not wear-resistant, not corrosion-resistant, problems such as runner is coarse, pump efficiency weak point in low working life, cost, maintenance inconvenience.At all deficiencys that metal pump exists, generally the solution of Cai Yonging has following several: 1. adopt titanium material or precious metal material to make anti-corrosive pump.This method can solve certain problem, but expensive on cost, the general user does not bear, and the waste material resource.2. employing chemical nickel plating on surface--phosphorus protective coating.Pump after this method is handled is more much better than naked pump, but can not tackle the problem at its root because of coating is thin, porosity ratio is high.3. the glass fibre reinforced plastics processing method is carried out on the surface.Glass fibre reinforced plastics uses better in certain medium that is suitable for, but on construction process difficulty carry out.Since the pump structure complexity, the more hidden danger that just has cracking of seam during processing.Thickness easily produces inhomogeneous, influences the dynamic balancing of pump.This method will be used Bond, the low easy delamination of adhesion.Above problem finally can just influence working life, and is very undesirable in practical application.4. surperficial bonding hard dusty material method.Main binding material such as diamond, molybdenum, zirconium etc.This method difficulty of construction is big, and adhesion is low, the surface roughness height, and the porosity ratio height, weight increases big, and the life-span improves limited, and the force part is destroyed soon on runner.5. surperficial sticking rubber protection.This method difficulty of construction is big, and adhesion is low, and the slit joint is many, and is easily aging, thereby adopts very few in actual applications.Above method can solve the certain problem in the practical application really, but also exists a lot of masty deficiencys, affects the effect in working life.

The object of the present invention is to provide a kind of novel water pump, it has advantages of good abrasion concurrently, corrosion resistance, thereby arranged long working life, can improve the utilization efficiency of pump simultaneously again.

The invention provides a kind of wear-resisting anticorrosive efficient pump, it is characterized in that: at flow passage components surface attachment one deck smelting combined epoxy coating of former pump structure, the composition of coating mainly comprises (weight percentage):

E-12 type epoxy resin 25～40 curing agent 0.1～2

It is wherein surplus that coupling agent 0.1～0.5 adds material, adds material and be selected from one or more of titanium dioxide, diamantin, wollastonite in powder, ore black powder; Curing agent is selected from a kind of of dicyandiamide and derivative PMA acid anhydride thereof, trimellitic anhydride, acrylic resin; Coupling agent is selected from VTES, isopropyl three hard different fatty acyl group titanate esters, three (dioctyl pyrophosphoryl oxygen base) metatitanic acid isopropyl ester; Also can add 5～30 phenolic resin.The smelting combined epoxy powder coating, be a kind of novel industrial antisepsis coating, ability with the anti-dielectric corrosion that makes preparations for sowing of good normal temperature, with the metallic material combination force strong and can carry out car, dig, mill, various machinings such as mill, brill, self-lubricating property is good, and the water pump that is used for existing structure has following advantage:

1. on performance index.Physical and mechanical properties index height, adhesive strength) 80MPa, shear strength 43MPa, impact strength) 18J, pressure/draw intensity 90～100MPa.Chemical-resistance is good, as acid-and base-resisting, salt, wet goods.Comprehensive resistance to chemical corrosion is better than coating commonly used, and physical property is than generally using high many of coating index always.So can increase substantially working life in actual applications, as just improving more than five times on the draining pump.

2. the degree of finish of runner improves after application, and transport resistance is reduced, and has increased flow.Bring up to 494 tons as on 500 tons/hour submersible pump, making flow from 488 tons.

3. pump efficiency improves, and can reach 2.5～3.2%.

4. the air horsepower of pump reduces, and greatly reduces energy consumption, has reduced user cost.

5. coating thickness is thin, and is in light weight, to not influence of pump dynamic balancing, just need not handle after the application and can directly use.

6. construction process is convenient, and coating thickness can require and handle according to actual, and coating is as a whole, does not have this shortcoming of seam, thereby is difficult for being taken off layer in certain and produces and destroy.

7. other also have characteristics such as machining, field repair.

Below by embodiment in detail the present invention is described in detail.

Accompanying drawing 1 is a performance curve before the spraying of 250QJ (R) 230/3 submersible pump.

Accompanying drawing 2 is 250QJ (R) 230/3 a submersible pump impeller spraying back performance curve.

Accompanying drawing 3 all sprays the back performance curve for 250QJ (R) 230/3 submersible pump mesochite impeller.

Accompanying drawing 4 is the preceding performance curve of 400QJ500-30/2 submersible pump spraying.

Accompanying drawing 5 is 400QJ500-30/2 submersible pump impeller spraying back performance curve.

Embodiment 1

By following step water pump is carried out application:

--will treat that the application parts deoil, sandblast scrubbing rust cleaning;

--parts are preheating to 230～250 ℃;

--applying coatings to thickness is 0.1～3mm;

--solidified 0.5～2 hour down at 220～240 ℃;

--mechanical prosthesis is to the size that requires.

The coating composition:

Epoxy E-12 60 PMA acid anhydrides 1

Vinyl Ethoxysilane 0.3 wollastonite surplus

Be used for submersible pump, test result is as follows:

One, experimental prototype:

1. 250QJ (R) 230/3+YQS ₂-250/55; (necessary electromotor power 55KW)

2. 400QJ 500/2+YQS (V) 300-63/4; (necessary electromotor power 63KW)

Two, test method:

This test takes the method for comparative trial to carry out.Promptly water pump vane, the mesochite to same model machine spraying front and back, carries out the pump performance test respectively, to compare its performance variation situation.

Specific practice:

(1) 1. when not spraying, 250QJZ (R) 230/3 water pump is carried out testing property.

2. behind single spray impeller overcurrent position, water pump is carried out testing property, to compare changes of properties.

3. the overcurrent position of mesochite is also sprayed, the test water pump performance is to understand and the situation of change of pump performance relatively again.

(2) 1. when not spraying, 400QJ 500/2 water pump is carried out testing property.

2. again water pump is carried out testing property behind the spraying impeller overcurrent position, to compare the situation of change of pump performance.

Three, test result: (being coated with organic coating thickness is 0.3～0.4mm)

(1) 250QJ (R) 230/3 testing water pump result

1. performance curve (seeing accompanying drawing 1) before spraying

2. performance curve (seeing accompanying drawing 2) behind the spraying impeller

3. impeller, mesochite all spray back performance curve (seeing accompanying drawing 3)

4. performance comparison table:

The project data state	Flow (m ³/h)	Lift (m)	Efficient (%)	Air horsepower (KW)
The project data state	Flow (m ³/h)	Lift (m)	Efficient (%)	Air horsepower (KW)	Before the spraying	??226.8	?60.67	?74.93	?50.02
After the impeller spraying	??226.79	?60.64	?77.42	?46.36	Before the spraying	??226.8	?60.67	?74.93	?50.02
After the impeller spraying	??226.79	?60.64	?77.42	?46.36	After the spraying of mesochite impeller	??227.97	?60.96	?78.01	?46.51

(2) 2. 3. performance comparison table of impeller spraying back characteristic curve of pump (seeing accompanying drawing 5) of performance curve (seeing accompanying drawing 4) before 400QJ 500-30/2 testing water pump result 1. spraying:

The project data state	Flow (m ³/H)	Lift (m)	Efficient (%)	Air horsepower (KW)
The project data state	Flow (m ³/H)	Lift (m)	Efficient (%)	Air horsepower (KW)	Before the spraying	???486.24	?29.29	?78.1	??49.67
After the impeller spraying	???495.25	?29.72	?81.13	??49.4	Before the spraying	???486.24	?29.29	?78.1	??49.67

Four, test result analysis:

1. as can be seen from the test results, behind 250QJ (R) 230/3 spraying impeller overcurrent position, the flow of pump and lift change little, and air horsepower decline 3.36KW (account for rated power 6.65%), efficient improves 2.49%; And spraying mesochite and impeller during with spraying impeller separately pump performance change little, just slightly improvement.

2. the situation of change of pump performance sees that the variation of lift and air horsepower is little before and after 400QJ 500-30/2 impeller being sprayed, and flow increases 9.01m ³/ H, efficient improves 3.03%.

3. behind the spray coating powder paint of impeller overcurrent position, the smooth degree of runner obviously improves, and when fluid was passed through, resistance reduced; And reduced the possibility that produces turbulent flow.But the factor that influences pump performance is a lot, therefore to different pumps, reflects every Effect on Performance degree also different.But be reflected in overall target of pump performance--in the influence of pump efficiency, but be consistent.The present invention is to different pumps, and pump efficiency all has raising by a relatively large margin.

Embodiment 2

The coating composition is:

Epoxy E-12 50 dicyandiamides 2

Isopropyl tri titanate 0.2 quartz flour is surplus

Adopt embodiment's 1 identical technology that draining pump integral body is carried out application, be used for briny environment, the more naked pump life-span improves more than 15 times.

Claims

1. a wear-resisting anticorrosive efficient pump is characterized in that; At flow passage components surface attachment one deck smelting combined epoxy coating of former pump structure, the composition of coating mainly comprises (weight percentage):

E-12 type epoxy resin 25～40 curing agent 0.1～2

It is wherein surplus that coupling agent 0.1～0.5 adds material, adds material and be selected from one or more of titanium dioxide, diamantin, wollastonite in powder, ore black powder; Curing agent is selected from a kind of of dicyandiamide and derivative PMA acid anhydride thereof, trimellitic anhydride, acrylic resin; Coupling agent is selected from VTES, isopropyl three isostearoyl base titanate esters, three (dioctyl pyrophosphoryl oxygen base) metatitanic acid isopropyl ester.

2. according to the described wear-resisting anticorrosive efficient pump of claim 1, it is characterized in that: also can add 5～30 phenolic resin in the coating.

3. according to claim 1,2 described wear-resisting anticorrosive efficient pumps is characterized in that: pump structure integral body is coated with smelting combined epoxy coating.